about
Mechanism and kinetic isotope effect of the reaction of C2(X1Sigma(g)+) radicals with H2 and D2.Rate constants and kinetic isotope effects on the reaction of C2(X(1)Sigma(g)+) with CH4 and CD4.Deuterium kinetic isotope effects on the gas-phase reactions of C2H with H2(D2) and CH4(CD4).Shock tube study on the thermal decomposition of fluoroethane using infrared laser absorption detection of hydrogen fluoride.Thermal decomposition of 1,1,1-trifluoroethane revisited.Thermal Decomposition of Nitromethane and Reaction between CH3 and NO2.Time-Resolved Broadband Cavity-Enhanced Absorption Spectroscopy behind Shock Waves.Roaming Dissociation of Ethyl Radicals.Chain reaction mechanism in hydrogen/fluorine combustion.Dissociation of 1,1,1-trifluoroethane is an intrinsic RRKM process: classical trajectories and successful master equation modeling.Thermal Decomposition of 2,3,3,3- and trans-1,3,3,3-Tetrafluoropropenes.Reactions of o-benzyne with propargyl and benzyl radicals: potential sources of polycyclic aromatic hydrocarbons in combustion.Collision Frequency for Energy Transfer in Unimolecular Reactions.Controlling factors of oligomerization at the water surface: why is isoprene such a unique VOC?Chain-propagation, chain-transfer, and hydride-abstraction by cyclic carbocations on water surfacesMode selective dynamics and kinetics of the H2 + F2 → H + HF + F reactionDissociation channels, collisional energy transfer, and multichannel coupling effects in the thermal decomposition of CH3FOrigin of Bath Gas Dependence in Unimolecular Reaction RatesInterfacial Water Mediates Oligomerization Pathways of Monoterpene CarbocationsThermal Decomposition of Benzyl Radicals: Kinetics and Spectroscopy in a Shock TubeA simple heuristic approach to estimate the thermochemistry of condensed-phase molecules based on the polarizable continuum modelA high-repetition-rate shock tube for transient absorption and laser-induced fluorescence studies of high-temperature chemical kinetics
P50
Q33498597-994D22CC-49BF-4171-9E44-149586B054B7Q33541632-EC46F17D-6B8D-4598-9773-86C763B1E81EQ33794906-51767B58-4954-43FE-BAC4-401BC797220CQ35218666-E919361A-DDB5-41B6-8CF9-8C30CD3500A6Q35494031-B6D13706-CCE0-4120-9EF2-222046A4795AQ38776670-95027E02-EC65-4602-BD75-DEEAEE54CA6DQ39909898-1B8D387A-4881-45E3-9993-98B980DF9856Q40619385-9688711E-A947-41F8-AA11-BC37218A7DEAQ43894181-4B951BA6-7B41-4E18-AB5F-D5EA9B61426BQ47678640-9CF49E1C-D364-4131-B522-02BBE4AF4179Q47799671-5674D7FE-1FC3-4D03-9DDF-CF1983F160CBQ51357583-BDE51F90-A60E-47F7-9985-ACD45D311119Q52382966-D7ED0B86-E0FA-411F-BCA6-BF8EAC5D58C0Q54627130-E4A9BFB6-8136-494E-AC5C-670EE7BB4EAFQ57049437-1F55AB64-7AB6-4A22-988E-D5C088754C57Q85323604-89059E13-0BE7-432C-B983-0EB5C8031931Q88889979-C30C8B9A-ADC2-4C86-8707-99B37C69170EQ90942493-420B162F-EAF1-4492-874E-AEF58ED50579Q91751044-140F37CA-B775-4788-8DB1-590F32F02D61Q92516583-4627677A-6C97-4A11-8B32-B4E052C33706Q92895479-74CF6FAC-F835-48F3-9D15-0F457DCFB0D7Q96119686-5F83A831-DD2F-4091-B9CE-9D5C95F25888
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Akira Matsugi
@ast
Akira Matsugi
@en
Akira Matsugi
@es
Akira Matsugi
@nl
type
label
Akira Matsugi
@ast
Akira Matsugi
@en
Akira Matsugi
@es
Akira Matsugi
@nl
prefLabel
Akira Matsugi
@ast
Akira Matsugi
@en
Akira Matsugi
@es
Akira Matsugi
@nl
P106
P21
P31
P496
0000-0001-5789-7208